Project Description

In this project, we will analysis the global floods records from 1985 to 2008. Specifically, we will invesitgate the floods patterns over time, floods distribution across continent, causes of floods and relation between floods and air pressure.

Floods Patterns Over Time

First, to have a basic idea about world floods records, we show historical floods in a world map.

Also, a dynamic map is available. To see that interactive map, click the words “dynamic map”.

Floods by Continent

As a next step in the analysis, we look at the distribution of floods across the different continents throughout time. The goal is to identify possible patterns, and address questions such as:

To do this, we will divide the data into 4 roughly equally sized time periods: 1985-1993, 1994-2000, 2001-2008, 2009-2016. We will then produce plots for each continent during these periods, highlighting the flood events that occurred with their size indicating their total impact as measured on a scale that depends on displacement. A contour plot will also help us identify where clusters of these events occurred.

Interestingly on North America the majority of the events are concentrated on the east coast, while South America shows the opposite pattern. Some regions that are constantly affected by floods are the U.S. Mid-West, the Yucatan Peninsula, and the region that encompasses Colombia and Ecuador. Cuba, being an island, is also highly susceptible to these kind of natural disasters, with a large-displacement event occurring on during the 2000’s.

Turning to Europe, we notice that starting on the 1900’s the Balkan Peninsula became constantly impacted by flood disasters. The United Kingdom, due to its geographical position, is also exposed to a greater number of floods, although it had a relatively stable period throughout the second half of the 90’s. We notice that displacement is generally low on this continent.

The story on Asia is considerably different to what we have seen so far: floods are a frequent phenomena on the east coast of India, with China and the South-East region being constantly affected as well. Displacement tends to be generally higher, which could be explained both by the frequency of the events and by the civil planning required to handle them, although more investigation is required on the latest.

Moving now to Africa, we see again the pattern of more floods occurring on the western coast. Displacement does not seems to be so prevalent, although this could be due to more inefficient bookkeeping? We also identify Kenya and Tanzania as 2 regions that are particularly prone to these disasters.

Finally looking at Australia we notice that, although it is a continent with a large surface of contact with water, floods are not so prevalent. The clusters we observe correspond to the neighboring Indonesia and Malaysia, which are particularly succeptible.

Distribution by main cause / death : top floods causes , different from cause of deaths

## Warning: NAs introduced by coercion

Next, we did some analysis of main causes and death. From the distribution of main causes, we found “heavy rain” is the primary main cause of floods, over 2500 registers of floods are caused by heavy rain, which is much higher than any other causes.

However, although “tropical cyclone” and “tidal storm surge” have only around 500 registers, respectively, they were the main causes of death. After ordering the top 10 registers which have the most number of death, 5 of the top 10 registers are caused by these two natural disasters. Compared to the death caused by “heavy rain”, less than 100000 people died in floods caused by “heavy rain”, although it’s the primary main cause of floods.

Displacement

We also wanted to look at how floods affect displacement globally. We are using subset data of countries and respective number of people displaced. In order to get a broad understanding of displacement over time, the graphs have been generated for every 10 years i.e. the number of people displaced has been mapped for the years 1985, 1995, 2005 amd 2015.

From the plots above, we find: + Several regions in African continent have minimal displacement. This may be sttributed to no floods in those regions. This is supported by the finding that the African countries where people got displaced match the countries that had floods. However, it can’t be ruled out that lack of record keeping may be a possible reason.
+ Asia has significant displacement. One of the factors is potentially the highest population density in Asia.

M6 Floods Caused by Heavy Rain

From previous analysis, we found that heavy rain is the reason which caused the largest number of floods. Here, we researched on the floods caused by heavy rain that had a level of M6. We count the occurence of M6 level floods at each countries from 1985 to 2008. The countries with the largest 20 occurence are displayed in the following dotchart. From the plot, we can see that in the time period 1985 to 2008 China and USA have much more M6 floods than other countries. We then analysised the M6 floods in China.

plot 2

In this plot, we plotted all the floods locations with a level at least M6 happened in China from 1985 to 2015 with the death toll. As we can the most deadly floods happened in Hunan province.